EC:3.2.1.31 - FACTA Search

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Query: EC:3.2.1.31 (beta-glucuronidase)
7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many late embryogenesis abundant (Lea) protein genes in plants are regulated by abscisic acid (ABA). The RNA level of a carrot gene, DC8, increases in response to ABA in developing seeds. However, DC8 cannot be induced by ABA in adult tissues. We used chimeric genes made of various DC8 promoter fragments fused to beta-glucuronidase (GUS) to analyze the transcriptional regulation of DC8. DC8:GUS expression was measured in electroporated carrot protoplasts and in stably transformed carrots. The region of the DC8 promoter from -170 to -51 contained ABA-responsive sequences that required a 5' upstream region for high levels of expression in embryogenic callus protoplasts. 505 bp of the DC8 promoter conferred GUS expression in stably transformed somatic and zygotic embryos. DC8:GUS was expressed only in tissues formed in the seed. This includes cells in the embryo, the endosperm and the germinating seedlings. Gel retardation and competition experiments were performed to analyze the embryo nuclear protein-DNA binding activities in vitro. No binding activity was detected on the putative ABA-responsive region; however the 5' upstream regions located between -505 and -301 interacted with embryo nuclear factors. An additional site of DNA-protein interaction was located between positions -32 and +178. The nuclear proteins that bind these sequences were found in the embryo nuclei only, not in the nuclei from leaves or roots.
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PMID:Transcriptional regulation of a seed-specific carrot gene, DC8. 153 2

The gene for strictosidine synthase (str1), the enzyme which catalyzes the stereospecific condensation of tryptamine and secologanin to form the key indole alkaloid 3 alpha(S)-strictosidine has been isolated from genomic libraries prepared from Rauvolfia serpentina (India) and from Rauvolfia mannii (West Africa). The gene, str1, contained no introns and showed 100% nucleotide sequence homology over 1180 bp, encompassing the entire reading frame, between the two species. Transcription of the R. serpentina gene was found to start 81 nucleotides upstream from the AUG (26 nucleotides downstream from the TATA box). Transient expression assays in Nicotiana plumbaginifolia protoplasts of the R. serpentina str1 5'-noncoding region fused to the beta-glucuronidase reporter gene revealed promoter activity equivalent to 4 +/- 2% of that of 35 S CaMV promoter control. A series of truncated segments of the str1 promoter region indicated the presence of three areas of slight, but reproducible, negative control. Gel retardation assays demonstrated that several regions of the 5'-flanking sequences specifically bound nuclear protein from R. serpentina and that at least one region does not bind R. mannii nuclear protein. A survey of the expression of str1 in the R. serpentina plant suggested that strictosidine synthase poly(A)+ RNA was present predominantly, but not exclusively, in the root. This result correlated well with the distribution of both enzyme activity and indole alkaloids which were also predominant in the root, but, in general, distributed throughout the shrub.
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PMID:Strictosidine synthase from Rauvolfia serpentina: analysis of a gene involved in indole alkaloid biosynthesis. 156 28

Our goal is to identify cis-acting elements in the regulatory region of the major seed storage protein gene in rice. A glutelin gene (pGL5-1) has been cloned by screening a rice genomic DNA library with synthetic oligonucleotides and with an amplified DNA fragment. A transient expression assay using immature rice seeds shows that its 5' flanking sequence can direct the synthesis of beta-glucuronidase (GUS) when fused upstream of the GUS coding region. Gel-retardation assays were performed to study protein-DNA interactions between putative regulatory sequences of pGL5-1 and nuclear proteins from immature rice seeds. We demonstrate that at least six protein-DNA complexes are formed between the 5' flanking sequence of pGL5-1 (-677 to -45) and nuclear protein factors. By subsequent DNase I-footprinting analyses we defined several protein-binding regions. Two of the protein-binding sequences contain the TGAGTCA motif, which is also present in the -300 element found in the 5' flanking sequences of several storage protein genes of other crop plants, and to which the transcription factors jun and GCN4 bind.
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PMID:Multiple protein factors bind to a rice glutelin promoter region. 226 49

Detailed analysis of transgenic tobaccos containing a series of chimeric parB promoter/beta-glucuronidase (GUS) gene constructs allowed us to define two auxin-responsive elements (AREs) of 48 bp and 95 bp (positions -210 to -163 and -374 to -280) in the parB promoter. The two AREs responded independently to physiological concentrations of auxin. Gel retardation assays revealed binding of nuclear protein(s) to the sequence conserved between ARE I and ARE II. The auxin responsiveness of the parB promoter did not mediate the pathway through the as-1 element and transcription factor ASF-1. AREs I and II were responsive to auxin at physiological concentrations, whereas as-1 responded only to higher concentrations of auxin which may be interpreted as stress, though as-1 had been reported to be a minimal ARE [Liu, X. & Lam, E. (1994) J. Biol. Chem. 269, 668-675]. Histochemical staining of transgenic tobacco that contained a parB promoter/GUS construct demonstrated the expression of GUS activity in the shoot apex as well as in the root tips, suggesting the involvement of parB expression in meristematic activity or differentiation. The drastic change in auxin responsiveness in the transgenic plants between the 6th and 10th day after imbibition of seeds implies the development or the activation of auxin signal transduction systems during plant development.
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PMID:Identification of auxin-responsive elements of parB and their expression in apices of shoot and root. 760 96

We isolated and characterized an Arabidopsis cDNA encoding the DNA binding protein GT-1. This protein factor, which contains 406 amino acids, is highly homologous to the previously described tobacco DNA binding protein GT-1a/B2F but is 26 amino acids longer. Recombinant Arabidopsis GT-1, which was obtained from in vitro translation, bound to probes consisting of four copies of pea small subunit of ribulose bisphosphate carboxylase rbcS-3A box II and required the same GGTTAA core binding site as the binding activity of an Arabidopsis nuclear protein preparation. However, unlike the truncated tobacco GT-1a prepared from Escherichia coli extracts, the full-length Arabidopsis GT-1 bound to pea rbcS-3A box III and Arabidopsis chlorophyll a/b binding protein CAB2 light-responsive elements, both of which contain GATA motifs. Deletion and mutational analyses suggested that the predicted trihelix region of GT-1 is essential for DNA binding. Moreover, GT-1 binds to target DNA as a dimer, and its C-terminal region contains a putative dimerization domain that enhances the binding activity. Transient expression of the GT-1::beta-glucuronidase fusion protein in onion cells revealed the presence of a nuclear localization signal(s) within the first 215 amino acids of GT-1.
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PMID:Molecular dissection of GT-1 from Arabidopsis. 786 25

C4 plants have two carboxylases which function in photosynthesis. One, phosphoenolpyruvate carboxylase (PEPC) is localized in mesophyll cells, and the other, ribulose bisphosphate carboxylase (RuBPC) is found in bundle sheath cells. In contrast, C3 plants have only one photosynthetic carboxylase, RuBPC, which is localized in mesophyll cells. The expression of PEPC in C3 mesophyll cells is quite low relative to PEPC expression in C4 mesophyll cells. Two chimeric genes have been constructed consisting of the structural gene encoding beta-glucuronidase (GUS) controlled by two promoters from C4 (maize) photosynthetic genes: (i) the PEPC gene (pepc) and (ii) the small subunit of RuBPC (rbcS). These constructs were introduced into a C3 cereal, rice. Both chimeric genes were expressed almost exclusively in mesophyll cells in the leaf blades and leaf sheaths at high levels, and no or very little activity was observed in other cells. The expression of both genes was also regulated by light. These observations indicate that the regulation systems which direct cell-specific and light-inducible expression of pepc and rbcS in C4 plants are also present in C3 plants. Nevertheless, expression of endogenous pepc in C3 plants is very low in C3 mesophyll cells, and the cell specificity of rbcS expression in C3 plants differs from that in C4 plants. Rice nuclear extracts were assayed for DNA-binding protein(s) which interact with a cis-regulatory element in the pepc promoter. Gel-retardation assays indicate that a nuclear protein with similar DNA-binding specificity to a maize nuclear protein is present in rice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The promoters of two carboxylases in a C4 plant (maize) direct cell-specific, light-regulated expression in a C3 plant (rice). 792 Jul 19

Ran is a 25-kDa Ras-related nuclear GTP-binding protein which is very highly conserved in humans, Saccharomyces cerevisiae, and Schizosaccharomyces pombe. Ran has been found to form a stable, noncovalent complex with the chromatin-associated protein RCC1, a negative regulator of mitosis. In Sch. pombe, a temperature-sensitive mutation in the RCC1 homolog encoded by the pim1 gene causes premature induction of mitosis, and this mutation can be suppressed by overexpression of the Ran homolog encoded by spi1. We report here the cloning of three Ran cDNAs from tomato. The Ran protein is very highly conserved among plants, animals, and fungi. In tomato, Ran mRNA is expressed in all tissues examined, even those with little or no cell division, indicating that Ran in plants may have functions other than just control of mitosis. We have found that the tomato Ran protein can direct a beta-glucuronidase reporter protein to the plant cell nucleus, confirming that Ran is a nuclear protein in plants. We show that the tomato Ran protein can suppress the Sch. pombe pim1 mutation, indicating that the tomato Ran protein and the Sch. pombe spi1 protein are functionally homologous.
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PMID:A small nuclear GTP-binding protein from tomato suppresses a Schizosaccharomyces pombe cell-cycle mutant. 801 79

DNA elements involved in the regulation of two sunflower helianthinin genes were identified by analysis of beta-glucuronidase (GUS) expression in transgenic tobacco driven by sequences derived from the 5' upstream regions of these genes. A 2.4-kb upstream region of the helianthinin gene HaG3-A conferred rigorous developmental GUS expression in transgenic tobacco seeds with no significant GUS activity in nonembryonic tissues. Regions of the helianthinin upstream regulatory ensemble (URE) conferred ectopic expression in nonembryonic tissues when analyzed outside of the context of the complete helianthinin regulatory complex. A proximal promoter region was identified that conferred significant GUS expression in seeds but not in leaves of transgenic tobacco. Three sequence motifs that bind to seed nuclear proteins were identified in the proximal promoter region; mutations in these motifs significantly reduced the level of nuclear protein binding. Another important class of cis-regulatory elements was identified in the helianthinin URE that conferred abscisic acid-responsive GUS expression. In the full-length helianthinin URE, these elements only responded to abscisic acid in the developing seed, suggesting that the helianthinin gene contains additional regulatory elements, possibly in the proximal promoter region, that ensure hierarchical control in the developing seed.
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PMID:Developmental and hormonal regulation of sunflower helianthinin genes: proximal promoter sequences confer regionalized seed expression. 820

The PRB-1b gene encodes for a basic-type component of the pathogenesis-related PR-1 protein family. In leaves of tobacco plants, PRB-1b mRNA accumulation is rapidly induced by the application of exogenous ethylene. Promoter deletion analysis was performed in transgenic tobacco plants to delineate cis-acting elements necessary for ethylene responsiveness of the PRB-1b gene. The promoter sequence from position -213 was sufficient to enhance a 20 fold increase of beta-glucuronidase reporter gene expression in transgenic tobacco leaves exposed to 20 microliters/l of ethylene, however -141 bp were not. The functional study was correlated with in vitro analysis of the nuclear protein-DNA complexes formed on the promoter element identified as necessary for ethylene induction. Gel-shift analysis using restriction fragments spanning the sequence between position -237 and -143 revealed two distinct nuclear protein-DNA interactions. The protein-binding sequences were mapped to the contiguous regions G (-200 to -178) and Y (-179 to -154) by gel-shift analysis using oligonucleotides. Fractionation of crude nuclear extract by heparin-agarose chromatography resulted in the differential elution of the two binding activities. The DNA-nuclear protein interactions characterized in vitro can be part of the molecular events which mediate the transcriptional regulation of the PRB-1b gene by ethylene.
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PMID:DNA-protein interactions on a cis-DNA element essential for ethylene regulation. 821 81

Pyruvate,orthophosphate dikinase (PPDK; EC 2.7.9.1) activity is abundant in leaves of C4 plants, while it is difficult to detect in leaves of C3 plants. Recent studies have indicated that C3 plants have a gene encoding PPDK, with a structure similar to that of PPDK in C4 plants. However, low expression makes PPDK detection difficult in C3 plants. This finding suggests that high PPDK expression in C4 plants is due to regulatory mechanisms which are not operative in C3 plants. We have introduced a chimeric gene consisting of the gene encoding beta-glucuronidase (GUS; EC 3.2.1.31) controlled by the PPDK promoter from a C4 plant, maize, into a C3 cereal, rice. The chimeric gene was exclusively expressed in photosynthetic organs, leaf blades and sheaths, and not in roots or stems. Histochemical analysis of GUS activity demonstrated high expression of the chimeric gene in photosynthetic organs, localized in mesophyll cells, and no or very low activity in other cells. GUS expression was also regulated by light in that it was low in etiolated leaves and was enhanced by illumination. These observations indicate that the mechanisms responsible for cell-specific and light-inducible regulation of PPDK observed in C4 plants are also present in C3 plants. We directly tested whether rice has DNA-binding protein(s) which interact with a previously identified cis-acting element of the C4-type gene. Gel retardation assays indicate the presence in rice of a protein which binds this element and is similar to a maize nuclear protein which binds PPDK in maize. Taken together, these results indicate that the regulatory system which controls PPDK expression in maize is not unique to C4 plants.
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PMID:Tissue-specific light-regulated expression directed by the promoter of a C4 gene, maize pyruvate,orthophosphate dikinase, in a C3 plant, rice. 841 45

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